Acceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

According to any observer local to a photon, its speed is c, anywhere. According to a remote observer using Schwarzschild coordinates, the remote coordinate speed of any matter approaching the horizon drops to zero. Why do you keep lying that the matter infalling goes superluminal according to standard theory?

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

According to any observer local to a photon, its speed is c, anywhere. According to a remote observer using Schwarzschild coordinates, the remote coordinate speed of any matter approaching the horizon drops to zero. Why do you keep lying that the matter infalling goes superluminal according to standard theory?

Very interesting & entertaining to watch.

Like two “Infantile Broken A.I. computer systems” fighting with each other.

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

According to any observer local to a photon, its speed is c, anywhere. According to a remote observer using Schwarzschild coordinates, the remote coordinate speed of any matter approaching the horizon drops to zero. Why do you keep lying that the matter infalling goes superluminal according to standard theory?

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

According to any observer local to a photon, its speed is c, anywhere. According to a remote observer using Schwarzschild coordinates, the remote coordinate speed of any matter approaching the horizon drops to zero. Why do you keep lying that the matter infalling goes superluminal according to standard theory?

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

According to any observer local to a photon, its speed is c, anywhere. According to a remote observer using Schwarzschild coordinates, the remote coordinate speed of any matter approaching the horizon drops to zero. Why do you keep lying that the matter infalling goes superluminal according to standard theory?

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

According to any observer local to a photon, its speed is c, anywhere. According to a remote observer using Schwarzschild coordinates, the remote coordinate speed of any matter approaching the horizon drops to zero. Why do you keep lying that the matter infalling goes superluminal according to standard theory?

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

According to any observer local to a photon, its speed is c, anywhere. According to a remote observer using Schwarzschild coordinates, the remote coordinate speed of any matter approaching the horizon drops to zero. Why do you keep lying that the matter infalling goes superluminal according to standard theory?

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

The acceleration is only for atoms or neutral objects of matter.The external force that accelerates the ship will itself beatoms or light sent from atoms. The result is that accelerationis from a potential less than c squared.

Post by m***@gmail.comAcceleration must remain below mathematical light speed.Falling near light speed drops any possible new or nextgravity strength acceleration to the freefall. The fallspeed that has already been achieved is used as math tolimit further fall from reaching light speed.Mitchell Raemsch

The acceleration is only for atoms or neutral objects of matter.The external force that accelerates the ship will itself beatoms or light sent from atoms. The result is that accelerationis from a potential less than c squared.